BLAST Resut
BLASTP 2.2.26 [Sep-21-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= Eca_sc000108.1_g1450.1
(386 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
CBI31127.3 unnamed protein product, partial [Vitis vinifera] 491 e-171
XP_002264477.2 PREDICTED: bifunctional protein FolD 1, mitochond... 491 e-171
CAN65246.1 hypothetical protein VITISV_024214 [Vitis vinifera] 484 e-168
>CBI31127.3 unnamed protein product, partial [Vitis vinifera]
Length = 358
Score = 491 bits (1263), Expect = e-171, Method: Compositional matrix adjust.
Identities = 249/379 (65%), Positives = 297/379 (78%), Gaps = 27/379 (7%)
Query: 10 WRKMGLKVFYYSNSSSSSSSSSTHPPSLPPPPSPPLLNPTLRILGPELPEIWNPNS--SP 67
W+K GLK S S + ++ H + SPPL++ + P+IW PNS
Sbjct: 5 WQK-GLKKSMPSTSRAVNTLKHNHCYQIRK--SPPLVSL-------DFPDIWTPNSLDYD 54
Query: 68 CLPPKTNTTHLPRPSLTFNQQAPNEQTAAVIDGKLMADEIRSEIAEEVSRMKNAIGKVPG 127
C P Q+ NEQTAAVIDGK +++EI S IA EVSRMK +IGKVPG
Sbjct: 55 CSPI---------------QKGSNEQTAAVIDGKSISEEIISGIASEVSRMKESIGKVPG 99
Query: 128 LAVILVGERKDSQTYVRRKITACQEAGILSLITELPEDCAEVEVLNAISSYNENPEVHGI 187
LAVILVG+R+DSQTYVR KI AC+EAGI SL+ ELPEDC E E+L+A+SS+NENP +HGI
Sbjct: 100 LAVILVGQRRDSQTYVRNKIKACEEAGIKSLMAELPEDCTEDEILSALSSFNENPSIHGI 159
Query: 188 LVQLPLPQHVNEEKVLNFVKLEKDVDGFHPINIGNLAMTGREPLFIPCTPKACIEMLLRS 247
LVQLPLP+H++EEK+LN V LEKDVDGF+P+N+GNLAM GREPLFIPCT K CIE+LLRS
Sbjct: 160 LVQLPLPKHLDEEKILNMVSLEKDVDGFNPLNMGNLAMRGREPLFIPCTAKGCIELLLRS 219
Query: 248 KVEIMGKTAVVIGRSNIAGLPTSLLLQRHRATVSVVHAFTKNPEEITRQADILVSAAGVA 307
VEIMGK AVVIGRSNIAGLPTSLLLQRH ATVS++HA +KNP++ITRQADI+V+A GV
Sbjct: 220 GVEIMGKKAVVIGRSNIAGLPTSLLLQRHHATVSILHALSKNPDQITRQADIVVTAVGVP 279
Query: 308 HLVRSNWIKPGAIVVDIGTNPVEDPDNEFGYSLRGDVCYEEAVKVASAITPVPGGVGPMT 367
+LVR +W+KPGA+V+D+GT PVEDP +EFGY L GDVCYEEA+ VASA+TPVPGGVGPMT
Sbjct: 280 NLVRGHWLKPGAVVIDVGTYPVEDPSSEFGYHLVGDVCYEEALGVASAVTPVPGGVGPMT 339
Query: 368 IAMLLSNTLDSAKRAYRLT 386
IAMLLSNTLDSAKRAY +T
Sbjct: 340 IAMLLSNTLDSAKRAYDIT 358
>XP_002264477.2 PREDICTED: bifunctional protein FolD 1, mitochondrial isoform X1
[Vitis vinifera] XP_010653083.1 PREDICTED: bifunctional
protein FolD 1, mitochondrial isoform X1 [Vitis
vinifera] XP_010653084.1 PREDICTED: bifunctional protein
FolD 1, mitochondrial isoform X1 [Vitis vinifera]
XP_010653085.1 PREDICTED: bifunctional protein FolD 1,
mitochondrial isoform X1 [Vitis vinifera] XP_010653086.1
PREDICTED: bifunctional protein FolD 1, mitochondrial
isoform X1 [Vitis vinifera]
Length = 371
Score = 491 bits (1264), Expect = e-171, Method: Compositional matrix adjust.
Identities = 249/379 (65%), Positives = 297/379 (78%), Gaps = 27/379 (7%)
Query: 10 WRKMGLKVFYYSNSSSSSSSSSTHPPSLPPPPSPPLLNPTLRILGPELPEIWNPNS--SP 67
W+K GLK S S + ++ H + SPPL++ + P+IW PNS
Sbjct: 18 WQK-GLKKSMPSTSRAVNTLKHNHCYQIRK--SPPLVSL-------DFPDIWTPNSLDYD 67
Query: 68 CLPPKTNTTHLPRPSLTFNQQAPNEQTAAVIDGKLMADEIRSEIAEEVSRMKNAIGKVPG 127
C P Q+ NEQTAAVIDGK +++EI S IA EVSRMK +IGKVPG
Sbjct: 68 CSPI---------------QKGSNEQTAAVIDGKSISEEIISGIASEVSRMKESIGKVPG 112
Query: 128 LAVILVGERKDSQTYVRRKITACQEAGILSLITELPEDCAEVEVLNAISSYNENPEVHGI 187
LAVILVG+R+DSQTYVR KI AC+EAGI SL+ ELPEDC E E+L+A+SS+NENP +HGI
Sbjct: 113 LAVILVGQRRDSQTYVRNKIKACEEAGIKSLMAELPEDCTEDEILSALSSFNENPSIHGI 172
Query: 188 LVQLPLPQHVNEEKVLNFVKLEKDVDGFHPINIGNLAMTGREPLFIPCTPKACIEMLLRS 247
LVQLPLP+H++EEK+LN V LEKDVDGF+P+N+GNLAM GREPLFIPCT K CIE+LLRS
Sbjct: 173 LVQLPLPKHLDEEKILNMVSLEKDVDGFNPLNMGNLAMRGREPLFIPCTAKGCIELLLRS 232
Query: 248 KVEIMGKTAVVIGRSNIAGLPTSLLLQRHRATVSVVHAFTKNPEEITRQADILVSAAGVA 307
VEIMGK AVVIGRSNIAGLPTSLLLQRH ATVS++HA +KNP++ITRQADI+V+A GV
Sbjct: 233 GVEIMGKKAVVIGRSNIAGLPTSLLLQRHHATVSILHALSKNPDQITRQADIVVTAVGVP 292
Query: 308 HLVRSNWIKPGAIVVDIGTNPVEDPDNEFGYSLRGDVCYEEAVKVASAITPVPGGVGPMT 367
+LVR +W+KPGA+V+D+GT PVEDP +EFGY L GDVCYEEA+ VASA+TPVPGGVGPMT
Sbjct: 293 NLVRGHWLKPGAVVIDVGTYPVEDPSSEFGYHLVGDVCYEEALGVASAVTPVPGGVGPMT 352
Query: 368 IAMLLSNTLDSAKRAYRLT 386
IAMLLSNTLDSAKRAY +T
Sbjct: 353 IAMLLSNTLDSAKRAYDIT 371
>CAN65246.1 hypothetical protein VITISV_024214 [Vitis vinifera]
Length = 362
Score = 484 bits (1245), Expect = e-168, Method: Compositional matrix adjust.
Identities = 249/386 (64%), Positives = 297/386 (76%), Gaps = 34/386 (8%)
Query: 10 WRKMGLKVFYYSNSSSSSSSSSTHPPSLPPPPSPPLLNPTLRILGPELPEIWNPNS--SP 67
W+K GLK S S + ++ H + SPPL++ + P+IW PNS
Sbjct: 2 WQK-GLKKSMPSTSRAVNTLKHNHCYQIRK--SPPLVSL-------DFPDIWTPNSLDYD 51
Query: 68 CLPPKTNTTHLPRPSLTFNQQAPNEQTAAVIDGKLMADEIRSEIAEEVSRMKNAIGKVPG 127
C P Q+ NEQTAAVIDGK +++EI S IA EVSRMK +IGKVPG
Sbjct: 52 CSPI---------------QKGSNEQTAAVIDGKSISEEIISGIASEVSRMKESIGKVPG 96
Query: 128 LAVILVGERKDSQTYVRRKITACQEAGILSLITELPEDCAEVEVLNAISSYNENPEVHGI 187
LAVILVG+R+DSQTYVR KI AC+EAGI SL+ ELPEDC E E+L+A+SS+NENP +HGI
Sbjct: 97 LAVILVGQRRDSQTYVRNKIKACEEAGIKSLMAELPEDCTEDEILSALSSFNENPSIHGI 156
Query: 188 LVQLPLPQHVNEEKVLNFVKLEKDVDGFHPINIGNLAMTGREPLFIPCTPKACIEMLLRS 247
LVQLPLP+H++EEK+LN V LEKDVDGF+P+N+GNLAM GREPLFIPCT K CIE+LLRS
Sbjct: 157 LVQLPLPKHLDEEKILNMVSLEKDVDGFNPLNMGNLAMRGREPLFIPCTAKGCIELLLRS 216
Query: 248 KVEIMGKTAVVIGRSNIAGLPTSLLLQRHRATVSVVHAFTKNPEEITRQADILVSAAGVA 307
VEIMGK AVVIGRSNIAGLPTSLLLQRH ATVS++HA +KNP++ITRQADI+V+A GV
Sbjct: 217 GVEIMGKKAVVIGRSNIAGLPTSLLLQRHHATVSILHALSKNPDQITRQADIVVTAVGVP 276
Query: 308 HLVRSNWIKPGAIVVDIGTNPVE-------DPDNEFGYSLRGDVCYEEAVKVASAITPVP 360
+LVR +W+KPGA+V+D+GT PVE DP +EFGY L GDVCYEEA+ VASA+TPVP
Sbjct: 277 NLVRGHWLKPGAVVIDVGTYPVEIKLMDQQDPSSEFGYHLVGDVCYEEALGVASAVTPVP 336
Query: 361 GGVGPMTIAMLLSNTLDSAKRAYRLT 386
GGVGPMTIAMLLSNTLDSAKRAY +T
Sbjct: 337 GGVGPMTIAMLLSNTLDSAKRAYDIT 362